|Publication number||US7455128 B2|
|Application number||US 11/823,461|
|Publication date||Nov 25, 2008|
|Filing date||Jun 27, 2007|
|Priority date||Aug 29, 2003|
|Also published as||CA2535610A1, CA2535610C, EP1660754A2, EP1660754A4, EP1660754B1, US7178612, US7249639, US20050047884, US20060118335, US20070251728, WO2005024169A2, WO2005024169A3|
|Publication number||11823461, 823461, US 7455128 B2, US 7455128B2, US-B2-7455128, US7455128 B2, US7455128B2|
|Original Assignee||National Oilwell, L.P.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (20), Referenced by (21), Classifications (20), Legal Events (3)|
|External Links: USPTO, USPTO Assignment, Espacenet|
This application is a continuation of co-pending U.S. Non-provisional application Ser. No. 11/334,233 entitled “Automated Arm For Positioning Of Drilling Tools Such As An Iron Roughneck,” filed Jan. 18, 2006 by Jaroslav Belik, which is a continuation of U.S. Non-provisional application Ser. No. 10/916,164 entitled “Automated Arm For Positioning Of Drilling Tools Such As An Iron Roughneck,” filed Aug. 11, 2004 by Jaroslav Belik, now U.S. Pat. No. 7,178,612, which claims benefit of U.S. Provisional Application No. 60/499,087, filed Aug. 29, 2003, each application herein incorporated by reference in its entirety.
The present invention relates to a positioning device particularly useful in the oil and gas industry. In particular, the invention relates to a positioning device that allows for the positioning of drilling tools about a rig floor with more efficiency and with less risk to rig personnel than previous positioning devices.
In the oil and gas industry, a drill string is used by a drilling rig to drill a wellbore. The drillstring is typically composed of drillpipe and a bottomhole assembly; the latter including the drill bit, drill collars and other drilling related tools. An automated apparatus generally known as an “Iron Roughneck,” may be utilized to make-up and break-out threaded joints of drill pipe in a drill string. Iron Roughnecks have been used in the drilling industry for several years and are commercially available from a number of suppliers. For example, several Iron Roughnecks are manufactured and marketed by National Oilwell, L.P. in Houston, Tex.
An Iron Roughneck generally comprises a two-piece wrench unit and a spinner unit. The spinner rotates a joint of drill pipe relative to a second joint to either screw the pin end of the tool joint of the first joint of drill pipe into the box end of the tool joint of the second joint, or to unscrew the tool joints of the two joints of drill pipe. The wrench unit provides the torque necessary to make-up or break-out the connection. The bottom wrench, which serves as a back-up wrench, grasps the tool joint of the drill pipe suspended in the rotary table or mousehole. The upper wrench grasps the tool joint of the pipe suspended from the derrick and applies either the final make-up, or the initial break-out torque to the connection.
At various times during drilling operations, the Iron Roughneck needs to be moved between several locations on the rig, including the well centerline, one or more mouse holes, and a parking or storage position. Movement of the Iron Roughneck can be difficult due to the size and weight of the unit. Existing Iron Roughnecks may be mounted on a trolley that rides on a pair of parallel tracks. The problem with this configuration is that if multiple locations are desired, such as a mouse hole and the centerline stabbing position, extra tracks are necessary. The more tracks on the deck, the more tripping hazards that are created for the rig personnel. If access to a second mouse hole is desired, then there could be three sets of tracks all converging on a single point.
A second type of Iron Roughneck-positioning device is a telescopic arm, or scissor arm. This type of arm uses hydraulics to telescope the roughneck to the desired location. These telescopic arms are costly and heavy, and they take up substantial space when retracted to the stored or parked position.
A third type of Iron Roughneck-positioning device is a suspended parallelogram apparatus where the Iron Roughneck is suspended from the derrick and a parallelogram device swings the Iron Roughneck into position. Another variation has the Iron Roughneck hanging from an arm mounted on a C-shaped positioning device. The problems associated with these devices are that the distance from the arm base to the pipe is very short, the Iron Roughneck continues to swing after being placed into position (gravity is used to keep it vertical), the Iron Roughneck is difficult to install, the Iron Roughneck is heavy, and the Iron Roughneck is not very adjustable to future positions.
Many of these prior art devices use hydraulic cylinders for lifting and supporting the Iron Roughnecks and thus are susceptible to failure of the cylinders or a power failure. Thus, it would be desirable to have a system that is lightweight, compact in size, easily installed, for the movement of Iron Roughnecks. Such a system could also be used with other drilling tools or equipment which are heavy and/or awkward to move about the drilling rig.
The invention relates to an apparatus for moving an Iron Roughneck into position to allow the making-up and breaking-out of threaded joints in a drill string. The Iron Roughneck may be positioned about the centerline of the well, as well as one or more mouse holes. A self-balanced, dual synchronized parallelogram arm is utilized to accomplish the movement of the devices. Hydraulic or pneumatic cylinders are used for extension and retraction of the arm rather than to support the weight of the tool. The arm holds the tool in any position without cylinder assistance. Additionally, the arm holds the device in the vertical position at all extension points. Further, the arm moves the device parallel to the drill floor. The linkage in the synchronized parallelogram may be accomplished using gears, links, slots, or rollers. The apparatus may also be used to move other equipment into position about the drilling rig, such as the centerline of the well or the mouse holes.
The following figures form part of the present specification and are included to further demonstrate certain aspects of the present invention. The invention may be better understood by reference to one or more of these figures in combination with the detailed description of specific embodiments presented herein.
The following examples are included to demonstrate preferred embodiments of the invention. It should be appreciated by those of skill in the art that the techniques disclosed in the examples which follow represent techniques discovered by the inventor to function well in the practice of the invention, and thus can be considered to constitute preferred modes for its practice. However, those of skill in the art should, in light of the present disclosure, appreciate that many changes can be made in the specific embodiments which are disclosed and still obtain a like or similar result without departing from the spirit and scope of the invention. Moreover, although the present invention is discussed in the following paragraphs by reference to positioning an Iron Roughneck on a drilling rig, it will be apparent from the present disclosure that the positioning device of the present invention should not be limited to positioning tools on a drilling rig.
The attachment means may consist of a gear arm connection 28 (
At the end of the upper load support arm 24 and the compression link 26 is a tool or wrench bracket 36. Attached to the tool bracket is the Iron Roughneck that comprises a spinner 42, a top wrench 44, and a bottom wrench 46. A spinner bracket 40, and springs 56, may also be present. The spinner bracket 40, and springs 56 are used to assure that all rollers on the spinner 42 are touching the pipe, and allows the spinner to move down the pipe as the tool joint is made up. If the spinner is opened, it will move back away from the pipe.
In order to raise and lower the arm assembly along the column 12, a lifting cylinder 13 as shown in
A torque setting control panel 50 may be utilized to control various movements of the arm. A hydraulic enclosure 51 may house valves and solenoids for the various hydraulic houses needed to control the functions of the Iron Roughneck and the arm. The hoses (not shown) used by the Iron Roughneck may be attached to the arms by clips 52 to allow for a safer and less cluttered path out to the roughneck.
The arm joints 62 may comprise brass bearings, plastic bearing, non-lubricated bearings, and or bushings and compression sleeves. The arm joints 62 comprise the joints on the tool bracket 36, the load transfer joint 29, and those connecting the arms to the column guide 11 (not all joints are labeled on the Figs.).
The arm assembly 10 of the present invention is self balanced which allows the arm to be moved into a certain position and remain stable (stationary) without the need of a positioning cylinder 38. The arm also does not need to be supported by a cylinder. Cylinders 38 are only used for extension or retraction of the arm. This is an advantage because if there is a failure of a support cylinder, or a power failure, the arm may fall, or be left in an extended position. This has both safety and economical ramifications because a falling arm could injure people or damage equipment, and an extended, un-retractable arm may itself impede the drilling operation by blocking the drill floor.
Another feature of a preferred embodiment of the present invention is the ability to move the Iron Roughneck to all extension points of the arm while keeping it in a constant vertical position. Thus, once the Roughneck is mounted on the arm and oriented into the correct vertical position, no further adjustments are necessary to engage the drill pipe joints in their normal positions. Because the Iron Roughneck is always vertical, unlike with the hanging and swinging prior art devices, there is no time wasted while waiting for the Iron Roughneck to stop swinging before engaging the pipe.
An additional feature of the arm is the ability to move the Iron Roughneck parallel to the drill floor. Unlike some of the hanging or swinging systems in the prior art, the arm in the present invention provides additional safety by keeping the iron roughneck the same distance off of the drill floor at all points so that the pipe may be made-up at substantially the same height.
In one embodiment of the present invention, as shown in
A second embodiment utilizing a roller connection 30 is shown in
A third embodiment utilizes a pin 32 and slot 33 attachment as shown in
In all of the embodiments described above, the entire parallelogram arm may be inverted, that is, rotated about its longitudinal axis 180 degrees so that the load transfer joint 29 is essentially located on the bottom of the parallelogram arm.
Typically, the desired working height above the drill floor is about 30 inches. Most of the time, the working height for the Iron Roughneck is about 30 inches to about 60 inches. The arms of the present invention typically have a horizontal reaching distance of about 55 inches to about 8 feet. If a longer reach is desired, longer support arms and links may be used.
The arms and links are connected by the use of bushings and pins 62. The arm joints 62 may comprise brass bearings, plastic bearing, non-lubricated bearings, compression sleeves and/or bushings—typically, the bushings are bronze or plastic and the pins are stainless steel. The arm joints 62 comprise the joints on the tool bracket 36, the load transfer joint 29, and those connecting the arms to the column guide 11 (not all joints are labeled on the Figs.).
If the frictional resistance is low enough, the arm may be extended or retracted using conventional, non-hydraulic means such as having a rig operator manually pull or push the arm into position. However, the preferred embodiment uses one or more hydraulic cylinders 38 to overcome frictional resistance to move the arm between various positions about the rig floor.
The arm of the present invention may be utilized to position other types of equipment on a rig such as a mud bucket, casing tong, thread doper, and stabbing arm. Such devices are well known in the drilling industry. The equipment may be mounted directly to the positioning arm of the present invention, or to the Iron Roughneck already attached to the positioning arm. The mud bucket is used when pulling wet strings to provide a cleaner drill floor by capturing mud and returning it to the mud system. Mud buckets also allow the reuse of expensive mud. A thread doper cleans the box and adds dope to the drill pipe threads. It may be operated remotely and allows for the consistent application of thread dope. It also reduces the dope consumption. A stabbing arm may also be attached to the arm—that device controls the positioning of pipe for stabbing.
In an additional embodiment, the height adjustment for the Iron Roughneck is located at the end of the arm rather than at the base of the arm. In a further embodiment, column 12 may be attached to the derrick to eliminate any movement applied to the base of the arm assembly at the drill floor.
While the apparatuses and methods of this invention have been described in terms of deferred or illustrative embodiments, it will be apparent to those of skill in the art that variations may be applied to the process described herein without departing from the concept and scope of the invention. All such similar substitutes and modifications apparent to those skilled in the art are deemed to be within the scope and concept of the invention as it is set out in the following claims.
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|U.S. Classification||175/162, 166/85.1, 408/237|
|International Classification||E21B19/00, E21B, B23B47/00, E21B19/16|
|Cooperative Classification||Y10T408/935, Y10T408/91, E21B19/16, E21B19/087, E21B19/00, E21B19/06, E21B19/08, E21B19/165|
|European Classification||E21B19/087, E21B19/06, E21B19/08, E21B19/00, E21B19/16|
|Dec 13, 2007||AS||Assignment|
Owner name: NATIONAL OILWELL, L.P., TEXAS
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:BELIK, JAROSLAV;REEL/FRAME:020244/0060
Effective date: 20041103
|Jan 27, 2009||CC||Certificate of correction|
|Apr 25, 2012||FPAY||Fee payment|
Year of fee payment: 4